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Understanding how and why batteries degrade over time is essential for improving design and lifecycle performance.
In this webinar, explore HORIBA’s approach to ageing studies using µRaman, GD-OES, and SEI for both in-situ and ex-situ diagnostics. See how we map SEI growth, detect oxide formation, and follow structural changes in electrodes to predict performance decline and inform better material and process choices.

Crystallinity and material structure are key to maximizing battery energy and power density. HORIBA’s µRaman and QCarbon tools offer direct access to carbon ID/IG ratios and coating uniformity, while GDOES reveal elemental depth profiles. This webinar guides you through essential characterization techniques for both carbon-based and cathode materials, empowering better design and quality control for next-gen batteries.

Surface and interface studies need complementary analytical techniques, like GDOES and Raman, to provide elemental profiles and molecular insights on multilayers of various depths. This webinar illustrates this complementarity by showing selected results on polymeric coatings, anodic films, batteries, coatings on glass and DLC coatings.

In this webinar, we explore how HORIBA’s integrated solutions, including particle characterization and MicroXRF, provide comprehensive characterization of carbon materials and cathode powders. While laser diffraction and centrifugal sedimentation systems analyze particle size distribution and dispersion state with high precision and minimal sample prep, MicroXRF reveals elemental composition and ratios within electrodes at microscale.

The nuclear industry operates within some of the most demanding regulatory and technical environments, requiring precision, reliability, and safety at every stage of the nuclear lifecycle. In this webinar, we will explore how advanced analytical technologies and instrumentation provide comprehensive support across key phases of nuclear operations, from raw material qualification to environmental monitoring and facility decommissioning.

Minor impurities can cause major battery failures. This session delves into the critical role of impurity and additive control in both anode and cathode materials. HORIBA’s advanced solutions—such as EMGA/EMIA for O/N/S/C analysis and ICP-OES with ETV for trace metal detection—offer fast, accurate, and easy-to-use platforms for impurity profiling. Learn how early detection helps prevent capacity fade, short circuits, and other degradation phenomena, ensuring higher energy density and longer battery life.

This webinar demonstrates how to reveal structural information from molecules with rare-earth elements using fluorescence spectroscopy. It covers subjects in materials and optics-related fields.

Discover the comprehensive solutions offered by HORIBA for every step of the battery value chain, from raw materials to recycling. Our scalable, easy-to-use, and high-performance solutions are designed to tackle the challenges faced at each stage of battery production and usage.

诚邀您观看本次直播回放，本课程主要内容如下：
当面临腐蚀挑战时，为精准预测设备故障、最大程度延长材料使用寿命，并制定出高效可行的防腐策略，从而保障设备在极端严苛环境下依然具备出色的耐用性与可靠性，我们需要借助多样化且先进的腐蚀分析解决方案。在此次课程中，我们将介绍一整套全面且先进的腐蚀分析解决方案。这些方案经过精心设计，能够深入剖析并有效解决腐蚀过程以及防护策略中存在的各类复杂难题。

碳材料因其广泛应用于能源存储等行业而至关重要。对碳材料进行分析有助于确保材料质量和性能。然而，碳材料的结构复杂且具有变异性，例如存在缺陷和形态差异，这带来了诸多挑战，使得精确分析变得困难。